A method and system for alleviating a load is provided. A support system is positioned at a nominal location with respect to an object. The support system comprises jacks and supports. Each of the supports is associated with one of the jacks. The object is positioned on the support system. The support system with the object is moved across a path. The height of each of the jacks is adjusted as the support system moves along the path to maintain a desired minimum load on each jack. Maintaining the desired minimum load prevents damage to the object.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for alleviating a load on an object being moved, the method comprising: positioning a support system at a nominal location with respect to the object, wherein the support system comprises: jacks, each jack in the jacks comprising, respectively, a cylinder that comprises a hydraulic pressure, and a pressure regulation system configured to regulate the hydraulic pressure in the cylinder; and supports, each support in the supports associated with one of the jacks; selecting a desired constant pressure for the jack; positioning the object on the support system; moving the support system with the object across a path; and retracting, responsive to the hydraulic pressure exceeding the desired constant pressure, the cylinder via the pressure regulation system bleeding a portion of the hydraulic pressure from the cylinder; adjusting, responsive to the hydraulic pressure in the jack differing from the desired constant pressure and independent from a coordination with other jacks, a height of each of the jacks with the support system moving along the path and thereby maintaining a desired load preventing damage to the object.
2. The method of claim 1 , further comprising: adjusting the height of each of the jacks comprises via extending or retracting the cylinder; and the desired load being a load on the object from a platform connecting the cylinder to the object.
3. The method of claim 2 , wherein the jacks are hydraulic jacks and adjusting the height of each of the hydraulic jacks comprises: adjusting the height of the cylinder in each of the hydraulic jacks and maintaining a minimum load on each of the hydraulic jacks.
4. The method of claim 3 , further comprising: determining that the hydraulic pressure in the jack is less than the desired constant pressure; and extending the height of the cylinder in the jack until the desired constant pressure is reached.
5. The method of claim 3 , further comprising: determining that the hydraulic pressure in the jack exceeds the desired constant pressure; and retracting the height of the cylinder in the jack until the desired constant pressure is reached.
6. The method of claim 4 , wherein adjusting the height of each of the hydraulic jacks further comprises: selecting the desired constant pressure for the jack corresponding to the minimum load for the jack.
7. The method of claim 6 further comprising: increasing the height of the cylinder in the jack when the hydraulic pressure within the jack is below the desired constant pressure for the jack.
8. The method of claim 6 further comprising: decreasing the height of the cylinder in the jack when a pressure within the jack is above the desired constant pressure for the jack.
9. The method of claim 6 , further comprising the desired constant pressure for each of the hydraulic jacks being set prior to moving the object.
10. The method of claim 3 further comprising: maintaining a plane for the object.
11. A load alleviation system configured to prevent damage to an object in transport comprises: hydraulic jacks, such that each hydraulic jack of the hydraulic jacks, respectively, comprises a cylinder that comprises a pressure, a desired constant pressure, and a pressure regulation system configured to adjust, responsive to a difference in the pressure in the hydraulic jack from the desired constant pressure and independent from a coordination with other hydraulic jacks, the pressure in the cylinder and a height of the hydraulic jack that maintains the desired constant pressure; a bleed in the pressure regulation system configured such that responsive to the pressure being greater than the desired constant pressure the cylinder retracts; and supports configured to transport the object along a path, each support in the supports, respectively, being associated with one of the hydraulic jacks.
12. The load alleviation system of claim 11 , further comprising: the desired constant pressure is predetermined based upon a desired minimum load where a platform connected to cylinder contacts the object; and the cylinder in the hydraulic jack is configured to extend when the pressure in the hydraulic jack is less than the desired constant pressure.
13. The load alleviation system of claim 12 , wherein the cylinder in the hydraulic jack is configured to retract when the pressure in the hydraulic jack exceeds the desired constant pressure.
14. The load alleviation system of claim 11 further comprising: the desired constant pressure, respectively, in each hydraulic jack being set before the object is loaded for transport.
15. The load alleviation system of claim 11 , wherein the supports are configured to balance a load from the object between the hydraulic jacks to prevent damage to the object.
16. The load alleviation system of claim 11 , wherein each of the supports comprises an autonomous vehicle configured to move about a manufacturing floor.
17. A method for alleviating a load on an aircraft structure being moved, the method comprising: selecting a position under the aircraft structure and a desired constant pressure for each hydraulic jack in a support system; positioning the aircraft structure on the support system, wherein the support system comprises: a plurality of tools, each tool in the tools comprising, respectively, a hydraulic jack comprising: a cylinder comprising a hydraulic pressure, a pressure regulation system regulating the hydraulic pressure in the cylinder; a support associated with the hydraulic jack; and a movement system; moving the support system with the aircraft structure across a path; retracting, responsive to the hydraulic pressure exceeding the desired constant pressure, the cylinder via the pressure regulation system bleeding a portion of the hydraulic pressure from the cylinder; and adjusting, responsive to the hydraulic pressure in the hydraulic jack other than the desired constant pressure and independently from a coordination with another jack on another tool, a height of the plurality of tools as the support system moves along the path and thereby maintaining a desired load preventing damage to the aircraft structure.
18. The method of claim 17 , wherein maintaining the desired load comprises maintaining a minimum load on the hydraulic jack in the tool.
19. The method of claim 17 further comprising: determining that a load placed on the hydraulic jack by the aircraft structure is less than the desired load for the hydraulic jack; extending the height of the cylinder in the hydraulic jack until the desired load is reached; determining that the load placed on the hydraulic jack by the aircraft structure exceeds the desired load desired for the hydraulic jack; and retracting the height of the cylinder in the hydraulic jack until the desired load is reached.
20. The method of claim 19 further comprising: selecting the desired constant pressure corresponding to the desired load for the hydraulic jack; increasing the height of the cylinder in the hydraulic jack when a pressure within the hydraulic jack is below the desired constant pressure selected; and decreasing the height of the cylinder in the hydraulic jack when the pressure within the hydraulic jack is above the desired constant pressure selected.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
June 18, 2018
July 6, 2021
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